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Let us do the experiments.
We are all very familiar with the fact that a voltage is induced in conductor moving in magnetic field.
There are three experiments need to be done at first step.
Take a permanent magnet and put it on table. Than take a metallic disk. Any conducting disk is fine. Attached this disk to some sort of rotating mechanism. You will need some sort of axes thru the centre of disk. I usually do this by attaching a metallic disk to some stick or short round bar with the glue. With for the glue to dry. Then put one end of the bar or stick in drilling machine. Now, you can rotate the disk around its axis.
Put the disk over the magnet, so that the axis of magnetic field of permanent magnet and the axis of rotation of disk coincide.
Rotate the disk over the magnet and measure the voltage between the rim and the axis of the disk. Induced voltage will be detected.
Now you have to reverse rotating object. In this experiment you will have to rotate the magnet and have the disk stationary. Prepare the magnet as you did prepare the disk in experiment 1. Then put the magnet over disk so that the axis of magnetic field of permanent magnet and the axis of disk coincide. Now rotate the disk.
One would expect that the induced voltage would be measured. Yet it is not so. No voltage is induced in the disk. Even that you apparently have a relative motion between the magnetic field and the conductive disk.
Let us make third and last experiment. Glue together magnet and conductive disk. Of course the axis have to coincide. And rotate them both. An induced voltage is measured between rim of the disc and it's axis. Yet there is no relative motion between magnet and the disk.
These three experiments performed by Michael Faraday were puzzling. Why?
A magnetic home generator is quite merely a circular series of magnets that have been set in motion, that generates a sufficient amount of power to create perpetual motion, and yields enough additional electric power to power lights and appliances within the standard home. When a series of magnets lies within a circle surrounded by an opposing surface to repel the magnet and keep the circular core revolving, electrical energy is created from the motion produced.
Nikola Tesla (1856-1943), a well-known sustainable energy pioneer, defined the concept of continuous power and predicted that every single home would one day be powered by an indefinite source of energy. What he termed the wheel work of nature, we know as zero point energy, and it is classified within the class of magnetism.
The principles of electromagnetism come alive when a magnet is rotated, using kinetic energy, inside the magnetic home generator. That kinetic energy may then be converted into electrical free magnetic energy, that is a continuous an energy source. Electrons within the magnetic field act as very small magnets.
IMHO, I think that the working principle of the Tariel Kapanadze generator is to suck the free electrons from the Earth. The Earth is a big capacitor which contains free electric charges. If it is possible to create or to find a potential imbalance between two points in the ground, it seems possible to suck additional electrons from the ground and thus to create an increase of the current flow through a wire connected between these two points. Early in his researches in Colorado Springs, Nikola Tesla wanted to collect free energy from the Earth capacitor between the ground and the ionosphere by the use of a parametric resonance with the TMT project (read the Colorado Springs notes from 1899). Later, Tesla has also found that it is possible to do the same process with only the use of the ground by using the natural imbalance of the ground potential produced by the telluric currents flow underground and Tesla has found that this can be done by the use of an asymmetric displacement of current...
The condition in which an alternating current can be maintained with no translational movement of charge carriers is found in a capacitor. A displacement current consists of the back and forth movement of bound changes within the lattice structure of a non-conducting dielectric material.
No work would be done if the device operated with a displacement current. If a large voltage displaced a small amount of bound charge, the power requirements of a load, like a light bulb, would be met with no conduction current, therefore, with no expenditure of energy.
Power transmission lines form large-scale capacitors with the air as insulator between the conducting wires. The geometry makes the electric field strongest at the wire surface, which is where the air is likeliest to "break down" and discharge. The hissing and crackling you hear when standing under a power line is just this intermittent leakage.
Many natural systems form capacitors as well. For example, the Earth's surface and its ionosphere are two conducting layers separated by air. The surface-ionosphere capacitor is of particular interest in the study of sprites. Small "leaks" in the form of lightning can trigger much larger "leaks" (sprites, etc.) at high altitudes above them.
In the electric universe, this effect can be traced via auroral circuits, through the circuitry of the solar system, and far into interstellar space. From this viewpoint sprites and lightning are merely leakage currents trickling off the galactic power line. But clearly, the degree to which electric potential from the galaxy powers thunderstorms on Earth has yet to be investigated.